IC chip using a phase-locked loop for providing signals having different timing edges

1. In an integrated circuit chip having digital circuitry employing a system clock, improved on-chip circuitry for providing a predetermined signal having at least one differently occurring edge with respect to an edge of said system clock, said improved on-chip circuitry comprising: a phase-locked-loop having a first input, a second input and an output, said first input being coupled to said system clock; a delay element having one and coupled to said output of said phase-locked-loop, said delay element providing a delay substantially equal to the delay desired between said edge of said system clock and said differently occurring edge; a first path having one end coupled to the other end of said delay element, the other end of said first path being fed back to said second input of said phase-locked-loop, said phase-locked-loop being operative to synchronize the input signals applied thereto; a second path having a delay substantially equal to the delay of said first path, one end of said second path being coupled to said output of said phase-locked-loop, said predetermined signal being obtained from the other end of said second path; and logic circuitry in at least one of said paths for determining the occurrence of another edge of said predetermined signal.

2. The integrated circuit chip of claim 1, wherein said first path includes an OR gate having a first input coupled to the output of said phase-locked-loop and a second input coupled to the output of said delay element.

3. The integrated circuit chip of claim 2, wherein said second path includes an OR gate having a first input coupled to the output of said delay element and a second input coupled to a 0 logic level.

4. The integrated circuit chip of claim 1, wherein said first path includes an AND gate having a first input coupled to the output of said phase-locked-loop and a second input coupled to the output of said delay element.

5. The integrated circuit chip of claim 4, wherein said second path includes an AND gate having a first input coupled to the output of said delay element and a second input coupled to a 1 logic level.

6. The integrated circuit chip of claim 1, wherein each of said first and second paths include a multiplexor having first and second multiplexor inputs and a multiplexor selection input for determining which of said first and second multiplexor inputs are selected for propagation through the multiplexor, wherein the multiplexor in said first path has a 1 logic level coupled to its first multiplexor input, a 0 logic level coupled to its second multiplexor input, and the output of said delay element coupled to its multiplexor selection input, and wherein the multiplexor in said second path has the output of said phase-locked-loop applied to its first multiplexor input, a 1 logic level coupled to its second multiplexor input, and the output of said delay element coupled to its multiplexor selection input.

7. The integrated circuit chip of claim 6, wherein said multiplexors provide substantially the same propagation delay.

8. The integrated circuit chip of claim 1, wherein each of said first and second paths include a multiplexor having first and second multiplexor inputs and a multiplexor selection input for determining which of said first and second multiplexor inputs are selected for propagation through the multiplexor, wherein the multiplexor in said first path has a 1 logic level coupled to its first multiplexor input, a 0 logic level coupled to its second multiplexor input, and the output of said delay element coupled to its multiplexor selection input, and wherein the multiplexor in said second path has the output of said phase-locked-loop applied to the first multiplexor input, a 0 logic level coupled to its second multiplexor input, and the output of said delay element coupled to its multiplexor selection input.

9. The integrated circuit chip of claim 8, wherein said multiplexors provide substantially the same propagation delay.

10. The integrated circuit chip of claim 7, including a third path including a multiplexor providing substantially the same propagation delay as the multiplexors in said first and second paths, wherein the multiplexor in said third path has the output of said phase-locked-loop coupled to its first multiplexor input, a 0 logic level coupled to its second multiplexor input, and the output of said delay element coupled to its multiplexor selection input.